The SV120KL SmartOnline SV Series 120kVA 3-Phase On-Line Double-Conversion UPS System delivers true scalability and offers the highest level of secure, uninterrupted power protection. Featuring a modular, scalable design with high-efficiency voltage and frequency independent (VFI) operation, this on-line UPS system is ideal for protecting a variety of critical IT systems.

The SV120KL includes preinstalled input, bypass and output breakers, as well as a static transfer switch (STS) and six included 20kVA SV20PM power modules. Space is included for up to two additional user-installable SV20PM power modules to accommodate increased capacity up to 140kVA with N+1 fault tolerance. Each power module is rated at 0.9 power factor for maximum power to the connected load.

The Java-free HTML5-based WEBCARDLX interface enables full remote access for site power and UPS status monitoring, configuration, control and email notifications via secure web browser, SNMP, telnet or SSH. It supports 10/100 Mbps auto-sensing for optimum communication with an Ethernet network.

With up to 92% efficiency in standard mode and up to 99% efficiency in optional economy mode, this 120kVA UPS system helps you reduce operating and cooling costs. Automatic and manual bypass options keep connected equipment operational during routine maintenance or critical power module failure. Batteries are not included. External ±120VDC battery cabinets, such as Tripp Lite’s BP240V370, are sold separately.

Transfer Time: No transfer time (0 ms.) in online, double-conversion mode; Less than 20 ms. transfer time in economy modeLow Voltage Transfer to Battery Power (Setpoint): Maintains continuous operation without using battery power during brownout/undervoltage conditions to to 156V (Ph-Ph) Full load or 121V (Ph-Ph) 70% load or less; Below the low transfer voltage point, output is maintained utilizing reserve battery powerHigh Voltage Transfer to Battery Power (Setpoint): Maintains continuous operation without using battery power during overvoltages to 253V (Ph-Ph), reducing output within 1% of nominal; Above this point, output is maintained utilizing reserve battery power